Which of the following statements about articular cartilage is true?
A person is not able to extend his metacarpophalangeal joint. Injury to which of the following nerve result in this?
Where is Schatzki's Ring present?
Through which meatus is a nasal puncture typically performed?
Which structure prevents spread of infection from middle ear to brain?
All are parts of anterior segment of eye except?
The junction between Retina & Ciliary body is?
What is the thinnest portion of the sclera?
What is the longest part of the optic nerve?
Which muscles are responsible for the elevation of the eye?
NEET-PG 2013 - Anatomy NEET-PG Practice Questions and MCQs
Question 81: Which of the following statements about articular cartilage is true?
- A. Very vascular structure
- B. Surrounded by thick perichondrium
- C. Has no nerve supply (Correct Answer)
- D. Fibrocartilage
Explanation: ***Has no nerve supply*** - Articular cartilage is **aneural**, meaning it lacks nerve endings, which is why damage to it doesn't immediately cause pain until underlying bone or surrounding tissues are affected [1]. - Its aneural nature contributes to its low metabolic activity and limited capacity for repair. *Very vascular structure* - Articular cartilage is **avascular**, meaning it lacks a direct blood supply [1]. - It receives nutrients primarily through diffusion from the synovial fluid [1]. *Surrounded by thick perichondrium* - Articular cartilage is typically **not covered by a perichondrium**, unlike most other types of cartilage. - The absence of perichondrium prevents potential ossification of the articular surface. *Fibrocartilage* - Articular cartilage is primarily composed of **hyaline cartilage**, not fibrocartilage [1]. - **Hyaline cartilage** provides a smooth, low-friction surface for joint movement and acts as a shock absorber [1].
Question 82: A person is not able to extend his metacarpophalangeal joint. Injury to which of the following nerve result in this?
- A. Posterior Interosseous nerve injury (Correct Answer)
- B. Radial nerve injury
- C. Ulnar nerve injury
- D. Median nerve injury
Explanation: Posterior Interosseous Nerve (PIN) injury - The Posterior Interosseous Nerve is the deep motor branch of the radial nerve that specifically innervates the extensor muscles of the fingers and thumb - These muscles include: Extensor Digitorum, Extensor Indicis, Extensor Digiti Minimi, Extensor Pollicis Longus and Brevis [1] - PIN injury causes inability to extend the MCP joints and interphalangeal joints of the fingers [1] - Wrist extension is preserved because the Extensor Carpi Radialis Longus (ECRL) and often ECRB are innervated by the radial nerve proper before it gives off the PIN [1] - This results in a characteristic finger drop without wrist drop Radial nerve injury - A high radial nerve injury (proximal, above the elbow) would cause both wrist drop AND finger extension loss - However, radial nerve injury at the spiral groove (most common site) typically spares the PIN or affects it less severely - The question asks specifically about isolated inability to extend MCP joints, which is the hallmark of PIN injury, not general radial nerve injury - Radial nerve proper gives branches to triceps, brachioradialis, and ECRL before dividing into PIN and superficial branch Ulnar nerve injury - The ulnar nerve innervates intrinsic hand muscles (interossei, lumbricals to digits 4-5, hypothenar muscles, adductor pollicis) [1] - Ulnar nerve injury causes claw hand deformity with MCP hyperextension (not loss of extension) and IP joint flexion - This is the opposite of what is described in the question Median nerve injury - The median nerve innervates the thenar muscles, lateral two lumbricals, and forearm flexors [1] - Median nerve injury causes ape hand deformity with loss of thumb opposition and flexion - It does not affect MCP joint extension, which is an extensor function
Question 83: Where is Schatzki's Ring present?
- A. Upper end of trachea
- B. Lower end of esophagus (Correct Answer)
- C. Upper end of esophagus
- D. Lower end of trachea
Explanation: ***Lower end of esophagus*** - **Schatzki's Ring** is a localized narrowing that can occur at the **gastroesophageal junction**, specifically at the squamocolumnar junction. - This ring is a common cause of intermittent **dysphagia** for solid foods. [2] *Upper end of trachea* - The upper end of the trachea is the **larynx** or a region just below it, which is anatomically distinct from the esophagus. - Constrictions in this area are generally unrelated to Schatzki's Ring and typically involve conditions like **subglottic stenosis**. *Upper end of esophagus* - The upper end of the esophagus contains the **upper esophageal sphincter** (UES), which is a muscular structure. [3] - While strictures can occur here, they are not referred to as Schatzki's Ring. *Lower end of trachea* - The lower end of the trachea **bifurcates into the bronchi** and is part of the respiratory system. [1] - Anatomically, it is separate from the esophagus, and issues here would be related to respiratory conditions, not Schatzki's Ring.
Question 84: Through which meatus is a nasal puncture typically performed?
- A. Superior meatus
- B. Middle meatus
- C. Inferior meatus (Correct Answer)
- D. Sphenoethmoidal recess
Explanation: ---Inferior meatus--- - A nasal puncture for **maxillary sinus irrigation** is typically performed through the **inferior meatus** because it provides direct access to the floor of the nasal cavity and the passage to the maxillary sinus. - The floor of the **inferior meatus** is the thinnest part of the lateral nasal wall, making it an ideal entry point for procedures into the maxillary sinus. *Superior meatus* - The **superior meatus** is associated with the drainage of the **posterior ethmoid cells** and the **sphenoid sinus**. - Puncturing here would not provide access for maxillary sinus irrigation and could risk damage to the **cribriform plate**. *Middle meatus* - The **middle meatus** is where the **maxillary**, **frontal**, and **anterior ethmoid sinuses** primarily drain. - While related to the maxillary sinus, it is not the preferred site for a puncture for irrigation, as it is more complex and less direct than the inferior meatus. *Sphenoethmoidal recess* - The **sphenoethmoidal recess** is located superior to the superior concha and is the drainage site for the **sphenoid sinus**. - This area is too high and posterior to be relevant for a puncture aimed at the **maxillary sinus**.
Question 85: Which structure prevents spread of infection from middle ear to brain?
- A. Tegmen tympani (Correct Answer)
- B. Cribriform plate
- C. Fundus tympani
- D. Petrous apex
Explanation: ***Tegmen tympani*** - The **tegmen tympani** is a thin plate of bone forming the roof of the middle ear cavity, separating it from the **middle cranial fossa** and the brain. - Its primary function is to act as a **bony barrier**, preventing upward spread of infection from the middle ear space into the intracranial cavity. *Cribriform plate* - The **cribriform plate** is part of the ethmoid bone, located in the anterior cranial fossa, and is perforated by the **olfactory nerves**. - It does not form a boundary to the middle ear cavity and is not involved in preventing infection spread from the middle ear. *Fundus tympani* - This term is not a standard anatomical landmark. The **floor of the tympanic cavity**, or **fundus tympani**, separates the middle ear from the **internal jugular vein**. - It does not prevent the spread of infection to the brain but rather to structures below the middle ear. *Petrous apex* - The **petrous apex** is the very tip of the petrous part of the temporal bone, which houses the cochlea and vestibule. - While part of the temporal bone, it is not the direct barrier between the middle ear cavity and the brain; its involvement in infection spread is typically due to **petrous apexitis**, a distinct complication.
Question 86: All are parts of anterior segment of eye except?
- A. Lens
- B. Cornea
- C. Aqueous humor
- D. Vitreous (Correct Answer)
Explanation: ***Vitreous*** - The **vitreous humor**, or simply vitreous, is a transparent, gel-like substance that fills the space posterior to the lens and anterior to the retina, making it part of the **posterior segment** of the eye [3]. - Its main function is to maintain the shape of the eye and keep the retina in place. *Lens* - The **lens** is a transparent, biconvex structure located behind the iris and in front of the vitreous, making it a key component of the **anterior segment** [2]. - It works to focus light onto the retina, changing shape to alter the focal length of the eye. *Cornea* - The **cornea** is the transparent, outermost layer of the eye that covers the iris, pupil, and anterior chamber, clearly positioning it within the **anterior segment** [2]. - It plays a crucial role in focusing light into the eye. *Aqueous humor* - The **aqueous humor** is a clear, watery fluid located in the space between the cornea and the lens (the anterior and posterior chambers), which is definitively part of the **anterior segment** [1]. - It nourishes the cornea and lens and maintains intraocular pressure.
Question 87: The junction between Retina & Ciliary body is?
- A. Equator
- B. Pars plicata
- C. Pars plana
- D. Ora serrata (Correct Answer)
Explanation: ***Ora serrata*** - The **ora serrata** represents the **anterior-most jagged edge** of the retina where the sensory retina terminates. [1] - It marks the transition point where the neural retina becomes the **non-photoreceptive ciliary body epithelium**. *Equator* - The **equator** is the imaginary line circling the globe of the eye, approximately equidistant from the anterior and posterior poles. - It is a landmark on the retina itself, indicating the approximate middle of the retina, and not its junction with the ciliary body. *Pars plicata* - The **pars plicata** is the anterior, folded portion of the **ciliary body** that produces aqueous humor. - While part of the ciliary body, it is anterior to the junction with the retina and not the junction itself. *Pars plana* - The **pars plana** is the posterior, relatively flat portion of the **ciliary body**, located between the ora serrata and the pars plicata. - It is a part of the ciliary body immediately adjacent to the ora serrata, but the ora serrata itself is the definitive junction.
Question 88: What is the thinnest portion of the sclera?
- A. Anterior to the rectus muscle insertion
- B. At the posterior pole
- C. At the limbus
- D. Posterior to the rectus muscle insertion (Correct Answer)
Explanation: ***Posterior to the rectus muscle insertion*** - The sclera is thinnest immediately **posterior to the insertion of the rectus muscles**, where it is about 0.3 mm thick. - This area is clinically relevant as it is a common site for globe rupture during trauma. *Anterior to the rectus muscle insertion* - The sclera is relatively thick in this region, measuring around **0.6 mm thick**. - It provides robust support and attachment for the rectus muscles. *At the posterior pole* - At the posterior pole, the sclera is the **thickest**, reaching about 1.0 mm, especially around the optic nerve. - This thickness is necessary to protect the delicate neural structures exiting the eye. *At the limbus* - The sclera-corneal junction, or **limbus**, has an intermediate thickness, around **0.8 mm**. - This area is critical for surgical procedures but is not the thinnest point.
Question 89: What is the longest part of the optic nerve?
- A. Intracanalicular
- B. Intraorbital (Correct Answer)
- C. Intraocular
- D. Intracranial
Explanation: ***Intraorbital*** - The **intraorbital segment** is the **longest portion** of the optic nerve, measuring approximately **25-30 mm**. - It extends from the posterior pole of the eyeball to the **optic canal** and is characterized by a curved, **S-shaped course** within the orbit. - This excess length (approximately 8 mm more than the distance it spans) allows for **free eye movements** without putting tension on the nerve. *Intracranial* - The **intracranial portion** extends from the **optic canal** to the **optic chiasm**, measuring approximately **10-16 mm**. - While often mistakenly thought to be the longest, it is actually the **second longest segment**. - This segment is crucial for the formation of the **optic chiasm** where partial decussation of fibers occurs. *Intracanalicular* - The **intracanalicular portion** passes through the **optic canal** within the sphenoid bone, measuring approximately **4-10 mm**. - This segment is relatively short and constricted, making it vulnerable to compression in conditions like optic nerve gliomas or meningiomas. *Intraocular* - The **intraocular portion** (optic disc) is the **shortest segment**, measuring only about **1 mm**. - It passes through the **lamina cribrosa** of the sclera and is visible on fundoscopy as the optic disc.
Question 90: Which muscles are responsible for the elevation of the eye?
- A. SR and IO (Correct Answer)
- B. IO and SO
- C. IR and SR
- D. SO and IR
Explanation: ***SR and IO*** - The **superior rectus (SR)** muscle primarily elevates the eye, especially when the eye is **abducted** [1]. - The **inferior oblique (IO)** muscle also contributes to elevation, particularly when the eye is **adducted** [1]. *IO and SO* - While the **inferior oblique (IO)** elevates the eye, the **superior oblique (SO)** muscle is responsible for **depression** and **intorsion**, not elevation [1]. - Therefore, this combination does not exclusively perform elevation. *IR and SR* - The **superior rectus (SR)** muscle elevates the eye, but the **inferior rectus (IR)** muscle is responsible for **depression** of the eye, not elevation [1]. - This pair has opposing primary actions in vertical movement. *SO and IR* - Both the **superior oblique (SO)** and **inferior rectus (IR)** muscles are primarily involved in **depression** of the eye [1]. - The superior oblique also causes **intorsion**, and the inferior rectus causes **extorsion** [1].